Amazon cover image
Image from Amazon.com

Practical data analysis in chemistry / Marcel Maeder and Yorck-Michael Neuhold.

By: Contributor(s): Series: Data handling in science and technology ; v. 26.2007Description: 1 online resource (326 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9780444530547
  • 0444530541
  • 9780080548838
  • 0080548830
Subject(s): Genre/Form: Additional physical formats: Print version:: Practical data analysis in chemistry.LOC classification:
  • QD39.3.S7 M34 2007
Online resources:
Contents:
1. Introduction -- 2. Matrix Algebra -- 2.1 Matrices, Vectors, Scalars -- 2.2 Solving Systems of Linear Equations -- 3. Physical/Chemical Models -- 3.1 Beer-Lambert's Law -- 3.2 Chromatography / Gaussian Curves -- 3.3 Titrations, Equilibria, the Law of Mass Action -- 3.4 Kinetics, Mechanisms, Rate Laws -- 4. Model-based Analyses -- 4.1 Background to Least-Squares Methods -- 4.2 Linear Regression -- 4.3 Non-Linear Regression -- 4.4 General Optimisation -- 5. Model-Free Analyses -- 5.1 Factor Analysis, FA -- 5.2 Target Factor Analyses -- 5.3 Evolving Factor Analyses -- 5.4 Alternating Least-Squares -- 5.5 Resolving Factor Analysis, RFA -- 5.6 Principle Component Regression and Partial Least Squares, PCR and PLS.
Summary: The majority of modern instruments are computerised and provide incredible amounts of data. Methods that take advantage of the flood of data are now available; importantly they do not emulate 'graph paper analyses' on the computer. Modern computational methods are able to give us insights into data, but analysis or data fitting in chemistry requires the quantitative understanding of chemical processes. The results of this analysis allows the modelling and prediction of processes under new conditions, therefore saving on extensive experimentation. Practical Data Analysis in Chemistry exemplifies every aspect of theory applicable to data analysis using a short program in a Matlab or Excel spreadsheet, enabling the reader to study the programs, play with them and observe what happens. Suitable data are generated for each example in short routines, this ensuring a clear understanding of the data structure. Chapter 2 includes a brief introduction to matrix algebra and its implementation in Matlab and Excel while Chapter 3 covers the theory required for the modelling of chemical processes. This is followed by an introduction to linear and non-linear least-squares fitting, each demonstrated with typical applications. Finally Chapter 5 comprises a collection of several methods for model-free data analyses. * Includes a solid introduction to the simulation of equilibrium processes and the simulation of complex kinetic processes. * Provides examples of routines that are easily adapted to the processes investigated by the reader * 'Model-based' analysis (linear and non-linear regression) and 'model-free' analysis are covered.
Item type: eBooks
Star ratings
    Average rating: 0.0 (0 votes)
No physical items for this record

The majority of modern instruments are computerised and provide incredible amounts of data. Methods that take advantage of the flood of data are now available; importantly they do not emulate 'graph paper analyses' on the computer. Modern computational methods are able to give us insights into data, but analysis or data fitting in chemistry requires the quantitative understanding of chemical processes. The results of this analysis allows the modelling and prediction of processes under new conditions, therefore saving on extensive experimentation. Practical Data Analysis in Chemistry exemplifies every aspect of theory applicable to data analysis using a short program in a Matlab or Excel spreadsheet, enabling the reader to study the programs, play with them and observe what happens. Suitable data are generated for each example in short routines, this ensuring a clear understanding of the data structure. Chapter 2 includes a brief introduction to matrix algebra and its implementation in Matlab and Excel while Chapter 3 covers the theory required for the modelling of chemical processes. This is followed by an introduction to linear and non-linear least-squares fitting, each demonstrated with typical applications. Finally Chapter 5 comprises a collection of several methods for model-free data analyses. * Includes a solid introduction to the simulation of equilibrium processes and the simulation of complex kinetic processes. * Provides examples of routines that are easily adapted to the processes investigated by the reader * 'Model-based' analysis (linear and non-linear regression) and 'model-free' analysis are covered.

1. Introduction -- 2. Matrix Algebra -- 2.1 Matrices, Vectors, Scalars -- 2.2 Solving Systems of Linear Equations -- 3. Physical/Chemical Models -- 3.1 Beer-Lambert's Law -- 3.2 Chromatography / Gaussian Curves -- 3.3 Titrations, Equilibria, the Law of Mass Action -- 3.4 Kinetics, Mechanisms, Rate Laws -- 4. Model-based Analyses -- 4.1 Background to Least-Squares Methods -- 4.2 Linear Regression -- 4.3 Non-Linear Regression -- 4.4 General Optimisation -- 5. Model-Free Analyses -- 5.1 Factor Analysis, FA -- 5.2 Target Factor Analyses -- 5.3 Evolving Factor Analyses -- 5.4 Alternating Least-Squares -- 5.5 Resolving Factor Analysis, RFA -- 5.6 Principle Component Regression and Partial Least Squares, PCR and PLS.

Includes bibliographical references and index.

Print version record.

Elsevier ScienceDirect All Books

Copyright © 2020 Alfaisal University Library. All Rights Reserved.
Tel: +966 11 2158948 Fax: +966 11 2157910 Email: librarian@alfaisal.edu